A From a Formalized Parallel Action Language to its Efficient Code Generation

Modeling languages propose convenient abstractions and transformations to handle the complexity of today's embedded systems. Based on the formalism of Hierarchical State Machine, they enable the expression of hierarchical control parallelism. However, they face two importants challenges when it...

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Veröffentlicht in:	ACM transactions on embedded computing systems 2017-01
Hauptverfasser:	Llopard, Ivan, Fabre, Christian, Cohen, Albert
Format:	Artikel
Sprache:	eng
Schlagworte:	Computer Science Programming Languages
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container_title	ACM transactions on embedded computing systems
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creator	Llopard, Ivan Fabre, Christian Cohen, Albert
description	Modeling languages propose convenient abstractions and transformations to handle the complexity of today's embedded systems. Based on the formalism of Hierarchical State Machine, they enable the expression of hierarchical control parallelism. However, they face two importants challenges when it comes to model data-intensive applications: no unified approach that also accounts for data-parallel actions; and no effective code optimization and generation flows. We propose a modeling language extended with parallel action semantics and hierarchical indexed-state machines suitable for computationally intensive applications. Together with its formal semantics, we present an optimizing model compiler aiming for the generation of efficient data-parallel implementations.
doi_str_mv	10.1145/0000000.0000000
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subjects	Computer Science Programming Languages
title	A From a Formalized Parallel Action Language to its Efficient Code Generation
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